1. Introduction The SPEA 3030 XJLink2 Carrier Board, hereafter called the Carrier Board, is XJTAG’s recommended hardware solution for adding XJTAG boundary scan test capability to a SPEA 3030 bed of nails test system. System connector Stiffening bars US connector Power connector Figure 1 –...
SPEA 3030 XJLink2 Carrier Board . User Guide www.xjtag.com 3. XJLink2-3030 Module Installation Please follow normal anti-static handling procedures at all times. Make sure that the board stiffening bars have been fitted (see Figure 1 earlier), and that the Carrier Board is fully supported when each XJLink2-3030 module is inserted.
4. Carrier Board Installation The Carrier Board is installed into the backplane of the SPEA 3030 bed-of-nails tester. It requires separate connections for power and USB. Both of the required cables are supplied with the Carrier Board. The Carrier Board is designed to be powered by a 24 Volt supply.
Pin 11 can be used for any other function, as a TAP pin, a general purpose I/O pin or for frequency or voltage measurement. 7. Relay Connection Sequencing When the XJTAG project is executed, either directly from XJRunner/XJDeveloper or from within SPEA Leonardo, the relays linking the system connector to the XJLink2-3030 modules are activated in a sequence.
SPEA 3030 XJLink2 Carrier Board . User Guide www.xjtag.com 8. XJLink2-3030 Module Self-Test Configuration The relays used to isolate the UUT from the XJLink2-3030 modules also provide a built-in loopback between the module pins when the Carrier Board is in its default state, i.e. not actively running tests.
SPEA 3030 XJLink2 Carrier Board . User Guide www.xjtag.com The Loop Back Cable Fitted option is selected and greyed out as the Carrier Board will automatically apply the required loopback. When running the self-test from the integration DLL use the Test method on the XJLink object specifying a value of true for the runLoop ackTest parameter.